EP1211909A1 - Paging system - Google Patents
Paging system Download PDFInfo
- Publication number
- EP1211909A1 EP1211909A1 EP00957051A EP00957051A EP1211909A1 EP 1211909 A1 EP1211909 A1 EP 1211909A1 EP 00957051 A EP00957051 A EP 00957051A EP 00957051 A EP00957051 A EP 00957051A EP 1211909 A1 EP1211909 A1 EP 1211909A1
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- European Patent Office
- Prior art keywords
- paging
- connection
- radio network
- network controller
- control channel
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W68/00—User notification, e.g. alerting and paging, for incoming communication, change of service or the like
- H04W68/12—Inter-network notification
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W68/00—User notification, e.g. alerting and paging, for incoming communication, change of service or the like
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W68/00—User notification, e.g. alerting and paging, for incoming communication, change of service or the like
- H04W68/02—Arrangements for increasing efficiency of notification or paging channel
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W76/00—Connection management
- H04W76/10—Connection setup
- H04W76/11—Allocation or use of connection identifiers
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
- H04W88/06—Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W92/00—Interfaces specially adapted for wireless communication networks
- H04W92/02—Inter-networking arrangements
Definitions
- the present invention relates to radio network controllers, and paging systems and paging methods using the same, and particularly relates to a radio network controller that performs a simultaneous call for finding the location of a mobile station from base stations according to the paging procedure of the RANAP (Radio Access Network Application Part) protocol, and a paging system and a paging method using the same.
- RANAP Radio Access Network Application Part
- the paging procedure of the RANAP protocol is performed as follows. That is, when a paging command is transmitted from a core network (CN) including a mobile switching center (MSC) to a radio network controller (RNC), the radio network controller, in response to the command, performs a paging processing for simultaneously calling amobile station.
- CN core network
- MSC mobile switching center
- RNC radio network controller
- the radio network controller in response to the command, performs a paging processing for simultaneously calling amobile station.
- the range of common ID that is, the number of mobile stations which the system accommodates
- a large amount of processes is incurred at the radio network controller. For this reason, reduction of the amount of processes has been a concern for years.
- RRC connection Radio Resource Control
- IMSI International Mobile Subscriber Identifier
- IMSI is four bytes in length and therefore has a maximum value of 2 32 (approximately 4.3 ⁇ 10 9 ).
- searching IMSI at each time of paging incurs a considerably large load.
- Fig. 1 shows a conventional paging message (paging message from a core network to a radio network controller, hereinafter referred to as "paging message (core to base)").
- the radio network controller upon receiving a paging message (core to base), transmits the paging message via a radio paging control channel (PCCH) or a dedicated control channel (DCCH).
- PCCH radio paging control channel
- DCCH dedicated control channel
- the radio network controller searches whether an RRC connection has already been established for a targeted receiving mobile station using a common ID in the message as a key.
- a paging message (paging message from the radio network controller to the mobile station, hereinafter referred to as "paging message (base to mobile)" is transmitted via the paging control channel if an RRC connection has not been established and via the dedicated control channel if an RRC connection has been established.
- the paging message (base to mobile) is transmitted via the radio paging control channel to a mobile station that is not busy in a communication
- a mobile station that is busy in a communication does not allow the message to be received via the paging control channel and thus the paging message (base to mobile) must be transmitted via the dedicated control channel using an RRC connection that has already been established.
- Fig. 2 is a diagram showing a paging sequence by which a paging processing is performed to simultaneously call a mobile station 300 from a core network 100 via a radio network controller 200.
- the core network 100 includes a mobile switching center that is not shown, and a connection is set up between the mobile switching center and the radio network controller 200 by the SCCP (Signalling Connection Control Part) protocol.
- the radio network controller 200 controls base stations that are not shown, and a connection is set up between the base stations and the mobile station 300 based on the RRC protocol.
- a paging message (core to base) 11 of the RANAP protocol is transmitted from the core network 100 to the radio network controller 200 by the connectionless SCCP protocol. It is to be assumed that the paging message (core to base) 11 includes a common ID for identifying a mobile station.
- the radio network controller 200 searches whether an RRC connection has already been set up for the mobile station 300 designated by a common ID information element in the paging message (core to base) 11. In this case, the search is performed using a table shown in Fig. 3, that is, a table indicative of associations between common IDs and RRC connections (step 21 in Fig. 2).
- paging 1 message base to mobile
- PCCH paging 1 message
- a paging 2 message (base to mobile) 13 is transmitted using a dedicated control channel DCCH identified by the search result.
- DCCH paging 2 message
- the radio network controller 200 can be connected to two types of core network as follows:
- the combined core network with co-ordination function is capable of recognizing whether a mobile station that is targeted by a paging request already has an RRC connection. For example, when a request for receiving a circuit switched call is issued to a mobile station, within the core network, a circuit service function unit is capable of querying a packet service function unit as to whether a packet call is currently established. It is determined that an RRC connection has been established if a packet call has already been established and that an RRC connection has not been established if a packet call has not been established.
- SCCP resides in a layer above MTP (Message Transfer Part) and below RANAP.
- SCCP services are either "connectionless,” in which a connection is not set up and a communication is performed on a one-time basis, or "connection oriented,” in which a connection is set up in advance and a communication is performed using the connection that has been set up.
- the radio network controller performs a search using the common ID unconditionally in response to a paging request.
- the paging procedure at the radio network controller suffers from the drawback that a large amount of processes is incurred in order to search for the common ID.
- Japanese Unexamined Patent Publication Tokkai No. Hei 1-316050 achieves, by improving an application for a switch, a connection method with immediacy for a connection between a calling subscriber and a receiving subscriber who is called.
- the publication only discloses technical ideas regarding a system for calling a receiving subscriber with a pager, and is completely different from the present invention, which relates to a simultaneous call for finding the location of a mobile station from base stations.
- Japanese Unexamined Patent Publication Tokkai No. Hei 9-168053 discloses a method for communicating maintenance information to a remote apparatus including a remote processor and a pager circuit.
- the publication is also completely different from the present invention, which relates to a simultaneous call for finding the location of a mobile station from base stations.
- the present invention has been made in order to overcome the drawback of the conventional art described above, and an object thereof is to provide a radio network controller that serves to reduce the amount of processes for searching for a common ID in a paging procedure, and a paging system and a paging method using the same.
- a radio network controller is a radio network controller in a paging system that performs a paging processing for simultaneously calling a mobile station in response to a paging command from a core network, wherein a flag indicating whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service is added to said paging command, and said radio network controller comprises determination means for determining whether or not said flag indicates that said co-ordinating function is present; and paging processing means for performing said paging processing using one of a paging control channel and a dedicated control channel depending on the connection status between said core network and said radio network controller if said flag is determined as indicating the presence of said co-ordinating function.
- said paging control channel is used if the connection status between said core network and said radio network controller is connectionless, and said dedicated control channel is used if the connection status between said core network and said radio network controller is connection oriented.
- Said paging command may further include a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing is performed using the dedicated control channel by identifying the connection by said connection ID.
- a paging system is a paging system that performs a paging processing for simultaneously calling a mobile station from a radio network controller in response to a paging command from a core network, wherein said radio network controller comprises paging processing means for performing said paging processing using one of a paging control channel and a dedicated control channel depending on whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service. If the mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service, a search for a common ID is not required at said radio network controller.
- said radio network controller serves to reduce the amount of processes for searching for a common ID in a paging procedure.
- a paging method is a paging method that performs a paging process ing for simultaneously calling a mobile station from a radio network controller in response to a paging command from a core network, wherein said method comprises a paging processing step of performing, in said radio network controller, said paging processing using one of a paging control channel and a dedicated control channel depending on whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service.
- the present invention provides means for reducing the amount of processes for searching for a common ID in a paging procedure at a radio network controller.
- the present invention provides two types of paging message of the RANAP protocol, as will be described later. By providing the two types of paging message, unnecessary processes for searching for a common ID is saved at the radio network controller.
- paging 1 message core to base
- paging 2 message core to base
- Fig. 5 shows the configuration of a paging 1 message (core to base)
- Fig. 6 shows the configuration of a paging 2 message (core to base), respectively.
- a "co-ordination function presence/absence flag" is added to the information elements of the paging message shown in Fig. 1.
- the co-ordination function presence/absence flag indicates whether or not the mobile switching center of the core network has the function of co-ordinating packet service and circuit service.
- the paging 2 message (core to base) shown in Fig. 6 is a new message that is completely different from the paging message (core to base) shown in Fig. 1.
- the paging 2 message (core to base) does not have any information element.
- a separated core network and a combined core network without co-ordination function use only the paging 1 message (core to base) (Fig. 5).
- a core network with co-ordination function uses both the paging 1 message (core to base) (Fig. 5) and the paging 2 message (core to base) (Fig. 6).
- the paging 1 message (core to base) (Fig. 5) is used when the first paging (an RRC connection has not been established for the mobile station) is reliably assumed or when a possibility for the first paging exists.
- the paging 2 message (core to base) (Fig. 6) is used when the second or a subsequent paging (an RRC connection has been established for the mobile station) is reliably assumed.
- Fig. 7 shows the operations of the core network 400, the radio network controller 200, and the mobile station 300, and messages exchanged.
- the core network 400 without co-ordination function transmits a paging 1 message (core to base) 14 (Fig. 5) to the radio network controller 200. At this time, the co-ordination function presence/absence flag in the paging 1 message (core to base) 14 is set to "OFF.”
- the radio network controller 200 Upon receiving the paging 1 message (core to base) 14, the radio network controller 200 checks the co-ordination function presence/absence flag in the message (step 22 in Fig. 7). Inasmuch as the co-ordination function presence/absence flag is "OFF," a next common ID is searched for and checked (step 21 in Fig. 7). The subsequent sequence is similar as that in the conventional system. In this case, the presence/absence of an RRC connection is determined based on the table shown in Fig. 3, that is, the table indicative of associations between common IDs and RRC connections, so that a paging 1 message (PCCH) 12 or a paging 2 message (DCCH) 13 of the RRC protocol is transmitted to the mobile station 300.
- PCCH paging 1 message
- DCCH paging 2 message
- a paging processing from a core network with co-ordination function will be described with reference to Figs. 8 to 11.
- a case where an RRC connection has not been established for a destination mobile station that is, a case of the first paging message, will be described with reference to Figs. 8 and 9.
- Fig. 8 shows an example in which a circuit switched call to a mobile station 34 that is not busy in a communication is received.
- a circuit switched call is received at a mobile switching center 30 included in a core network 500 (Fig. 9)
- a circuit service function unit 32 transmits a query 42 as to "whether or not the destination mobile station is busy in a communication" to a packet service function unit 31.
- the circuit service function unit 32 receives a reply 43 to the effect that "the mobile station 34 is not busy in a communication" from the packet service function unit 31 and recognizes the first paging.
- the circuit service function unit 32 prepares a paging 1 message (core to base), sets the co-ordination function presence/absence flag "ON" to indicate that a search has already been performed, and transmits the paging 1 message (core to base) 44 (Fig. 5) to a radio network controller 33 by connectionless SCCP.
- Fig. 9 shows the operation of the radio network controller that has received the paging 1 message (core to base) 44.
- the radio network controller 200 upon receiving the paging 1 message (core to base) 15 (Fig. 5) from the core network 500, the radio network controller 200 checks the value of the co-ordination function presence/absence flag in the message (step 22 in Fig. 9). Inasmuch as the co-ordination function presence/absence flag is "ON," the process of searching for the common ID is skipped, and a paging 1 message (PCCH) 12 of the RRC protocol is transmitted to the mobile station 300 via a paging control channel. Referring back to Fig. 8, the paging 1 message (PCCH) 45 (12 in Fig. 7) has been transmitted from the radio network controller 33 to the mobile station 34.
- PCCH paging 1 message
- Fig. 10 shows an example in which a circuit switched call to a mobile station 54 that is busy in a packet service communication is received.
- a circuit switched call 61 is received at a mobile switching center 50 included in the core network 500 (Fig. 11)
- a circuit service function unit 52 transmits a query 62 as to "whether or not the destination mobile station is busy in a communication" to a packet service function unit 51.
- the circuit service function unit 52 receives a reply 63 to the effect that "the mobile station 54 is busy in a communication" and recognizes that the mobile station 54 has already established an RRC connection.
- the circuit service function unit 52 prepares a paging 2 message (core to base) (Fig. 6), and transmits the paging 2 message (core to base) 64 (Fig.
- Fig. 11 shows the operation of the radio network controller that has received the paging 2 message (core to base) 64.
- the radio network controller 200 upon receiving the paging 2 message (core to base) 16 (Fig. 6) from the core network 500, the radio network controller 200 identifies the RRC connection for the mobile station 300 from the SCCP connection between the core network 500 and the radio network controller 200 (step 23 in Fig. 11). Then, the radio network controller 200 transmits a paging 2 message (DCCH) 13 of the RRC protocol that has been identified for the mobile station 300 via a dedicated control channel DCCH.
- DCCH paging 2 message
- the paging 2 message (DCCH) 65 (13 in Fig. 9) has been transmitted from the radio network controller 53 to the mobile station 54.
- a response 66 from the mobile station 54 may be returned either using the SCCP connection 67 for a packet call between the mobile switching center 50 and the radio network controller 53 or by a new SCCP connection establishing request 68 for a circuit switched call between the mobile switching center 50 and the radio network controller 53.
- two types of paging message (core to base) with respect to the co-ordination function of core networks are newly provided so that means are provided for transmitting information recognized by a core network to a radio network controller, allowing the radio network controller to determine whether or not a search for a common ID is required based on the information. Accordingly, the amount of processes for searching for a common ID in a paging procedure at the radio network controller is reduced.
- Fig. 12 shows the configuration of a paging 2' message (core to base) according to the second embodiment of the paging 2 message (core to base).
- the message is transmitted by connectionless SCCP and a connection ID is added to the information elements.
- Fig. 13 shows an example in which a circuit switched call to a mobile station 74 that is busy in a packet service communication is received.
- a circuit switched call 81 is received at a mobile switching center 70 included in a core network
- a circuit service function unit 72 transmits a query 82 as to "whether or not the destination mobile station is busy in a communication" to a packet service function unit 71.
- the circuit service function unit 72 receives a reply 83 to the effect that "the mobile station 74 is busy in a communication" from the packet service function unit 71 and recognizes that the mobile station 74 has already established an RRC connection.
- the circuit service function unit 72 sets a connection ID indicating an SCCP connection that has been established for a packet call between the mobile switching center 70 and a radio network controller 73 in a paging 2' message (core to base) (Fig. 12), and transmits the paging 2' message (core to base) 84 (Fig. 12) in a connectionless manner.
- Fig. 14 shows the operation of the radio network controller that has received the paging 2' message (core to base) 84.
- the radio network controller 200 upon receiving the paging 2' message (core to base) 17 (Fig. 12) from the core network 500, the radio network controller 200 identifies the RRC connection for the mobile station 300 from the connection ID in the message (step 24 in Fig. 14), and transmits a paging 2 message (DCCH) 13 of the RRC protocol to the mobile station 300 via a dedicated control channel DCCH.
- DCCH paging 2 message
- the paging 2 message (DCCH) 85 has been transmitted from the radio network controller 73 to the mobile station 74.
- two types of paging message (core to base) are provided so that information recognized by a core network is transmitted to a radio network controller, allowing the radio network controller to determine whether or not a search for a common ID is required based on the information. Accordingly, the amount of processes for searching for a common ID in a paging procedure at the radio network controller is reduced.
- a plurality of radio network controllers 200, 201, ... are connected to a mobile switching center 450 included in a core network and that base stations 250 are connected to each of the radio network controllers 200.
- the amount of processes for searching for the common ID of the mobile station 300 is reduced in the paging procedure at each of the radio network controllers 200, as described above.
- the mobile switching center 450 when a paging request arrives at the mobile switching center 450, if the paging area spans across the radio network controller 200 and the radio network controller 201, the mobile switching center 450 transmits paging messages (core to base) to the radio network controller 200 and the radio network controller 201, necessitating searching processing at both of the radio network controllers.
- the connection with the mobile station 300 can be identified as residing at the radio network controller 200, and thus no paging message (core to base) is transmitted to the radio network controller 201. That is, transmission of a useless paging message (core to base) to the radio network controller 201 is prevented. Accordingly, only the radio network controller associated with the connection is required to search for the common ID, and the other radio network controllers are not required to execute useless processes, serving to avoid occurrence of congestion.
- paging 1' message core to base
- paging 2 message core to base
- Fig. 16 shows the configuration of the paging 1' message (core to base)
- Fig. 17 shows the configuration of the paging 2 message (core to base), respectively.
- search-not-required flag is added to the information elements of the paging message shown in Fig. 1.
- the search-not-required flag is a flag for notifying a radio network controller from a core network of whether or not it is required to search whether or not an RRC connection for a mobile station has been established at the radio network controller.
- the paging 2 message (core to base) shown in Fig. 17 is the same message as the one shown in Fig. 6, and is a new message that is completely different from the paging message (core to base) shown in Fig. 1.
- the paging 2 message (core to base) does not have any information element.
- a separated core network and a combined core network without co-ordination function use only the paging 1' message (core to base) (Fig. 16).
- a combined core network with co-ordination function uses either both the paging 1' message (core to base) (Fig. 16) and the paging 2 message (core to base) (Fig. 17) or only the paging 1' message (core to base) (Fig. 16).
- the paging 1' message (core to base) (Fig. 16) is used when the first paging (an RRC connection has not been established for the mobile station) is reliably assumed or when a possibility of the first paging exists.
- the paging 2 message (core to base) (Fig. 17) is used when the second or a subsequent paging (an RRC connection has been established for the mobile station) is reliably assumed.
- Fig. 18 shows the operations of a core network 400, a radio network controller 200, a mobile station 300, and messages exchanged.
- the core network 400 without co-ordination function transmits a paging 1' message (core to base) 14' (Fig. 16) to the radio network controller 200 in a connectionless manner.
- the search-not-required flag in the paging 1' message (core to base) 14' is set to "OFF.”
- the radio network controller 200 Upon receiving the paging 1' message (core to base) 14', the radio network controller 200 checks the search-not-required flag in the message (step 22' in Fig. 18). Inasmuch as the search-not-required flag is "OFF," a next common ID is searched for and checked (step 21 in Fig. 18). The subsequent sequence is similar as that in the conventional system. In this case, the presence/absence of an RRC connection is determined based on the table shown in Fig. 3, that is, the table indicative of associations between common IDs and RRC connections, and a paging 1 message (PCCH) 12 or a paging 2 message (DCCH) 13 of the RRC protocol is transmitted to the mobile station 300.
- PCCH paging 1 message
- DCCH paging 2 message
- a paging processing from a core network with co-ordination function will be described with reference to Figs. 19 to 22.
- a case where an RRC connection has not been established for a destination mobile station that is, a case of the first paging message, will be described with reference to Figs. 19 and 20.
- Fig. 19 shows an example in which a circuit switched call to a mobile station 34 that is not busy in a communication is received.
- a circuit switched call is received at a mobile switching center 30 included in a core network 400 (Fig. 18)
- a circuit service function unit 32 transmits a query 42 as to "whether or not the destination mobile station is busy in a communication" to a packet service function unit 31.
- the circuit service function unit 32 receives a reply 43 to the effect that "the mobile station 34 is not busy in a communication" from the packet service function unit 31 and recognizes the first paging.
- the circuit service function unit 32 prepares a paging 1' message (core to base) (Fig. 16), sets the search-not-required flag "ON" to indicate that "a search has already been performed” and that "an RRC connection has not been established for the mobile station 34", and transmits the paging 1' message (core to base) 44' (Fig. 16) to the radio network controller 33 by connectionless SCCP.
- Fig. 20 shows the operation of the radio network controller that has received the paging 1' message (core to base) 44'.
- the radio network controller 200 upon receiving the paging 1' message (core to base) 15' (Fig. 16) from the core network 500, the radio network controller 200 checks the value of the search-not-required flag in the message (step 22' in Fig. 20). Inasmuch as the search-not-required flag is "ON,” the processing of searching for the common ID is skipped, and a paging 1 message (PCCH) 12 of the RRC protocol is transmitted to the mobile station 300 via a paging control channel. Referring back to Fig. 19, the paging 1 message (PCCH) 45 (12 in Fig. 20) has been transmitted from the radio network controller 33 to the mobile station 34.
- PCCH paging 1 message
- the radio network controller 200 determines that an RRC connection has not been established for the mobile station 300 (connectionless). Thus, a search for the common ID is not required.
- Fig. 21 shows an example in which a circuit switched call to a mobile station 54 that is busy in a packet service communication is received.
- a circuit switched call 61 is received at a mobile switching center 50 included in a core network 500 (Fig. 22)
- a circuit service function unit 52 transmits a query 62 as to "whether or not the destination mobile station is busy in a communication" to a packet service function unit 51.
- the circuit service function unit 52 receives a reply 63 to the effect that "the mobile station 54 is busy in a communication" and recognizes that the mobile station 54 has already established an RRC connection.
- the circuit service function unit 52 prepares a paging 2 message (core to base) (Fig. 17), and transmits the paging 2 message (core to base) 64 (Fig.
- Fig. 22 shows the operation of the radio network controller that has received the paging 2 message (core to base) 64.
- the radio network controller 200 upon receiving the paging 2 message (core to base) 16 (Fig. 17) from the core network 500, the radio network controller 200 identifies which of a plurality of RRC connections is the RRC connection for the mobile station 300 based on the SCCP connection between the core network 500 and the radio network controller 200 (step 23 in Fig. 22). Then, the radio network controller 200 transmits a paging 2 message (DCCH) 13 of the RRC protocol that has been identified to the mobile station 300 via a dedicated control channel DCCH.
- DCCH paging 2 message
- the paging 2 message (DCCH) 65 (13 in Fig. 22) has been transmitted from the radio network controller 53 to the mobile station 54.
- a response 66 from the mobile station 54 may be returned either using the SCCP connection 67 for a packet call between the mobile switching center 50 and the radio network controller 53 or by a new SCCP connection establishing request 68 for a circuit switched call between the mobile switching center 50 and the radio network controller 53.
- the radio network controller 200 determines that an RRC connection has been established for the mobile station 300 (connection oriented). Thus, a search for the common ID is not required. Furthermore, in this case, checking of the search-not-required flag is not required either.
- two types of paging message (core to base) with respect to the co-ordination function of core networks are newly provided so that means are provided for transmitting information recognized by a core networks to a radio network controller, allowing the radio network controller to determine whether or not a search for a common ID is required based on the information. Accordingly, the amount of processes for searching for a common ID in a paging procedure at the radio network controller is reduced.
- Fig. 23 shows an example in which a circuit switched call to a mobile station 54 that is busy in a packet service communication is received.
- a circuit switched call 61 is received at a mobile switching center 50 included in a core network 400
- a circuit service function unit 52 transmits a query 62 as to "whether or not the destination mobile station is busy in a communication" to a packet service function unit 51.
- the circuit service function unit 52 receives a reply 63 to the effect that "the mobile station 54 is busy in a communication" and recognizes that the mobile station 54 has already established an RRC connection.
- the circuit service function unit 52 sets the search-not-required flag in the paging 1' message (core to base) 15' (Figs. 20 and 16) to "OFF.”
- the radio network controller 200 Upon receiving the paging 1' message (core to base) 15'(Fig. 16), the radio network controller 200 checks the search-not-required flag in the message (step 22' in Fig. 20). Inasmuch as the search-not-required flag is "OFF," a next common ID is searched and checked (step 21 in Fig. 20). The subsequent sequence is similar as that in the conventional system. In this case, whether the presence/absence of an RRC connection is determined based on the table shown in Fig. 3, that is, the table indicative of associations between common IDs and RRC connections, and a paging 1 message (PCCH) 12 or a paging 2 message (DCCH) 13 of the RRC protocol is transmitted to the mobile station 300. In this case, inasmuch as an RRC connection has already been set up for the mobile station, the paging 2 message (DCCH) 13 is transmitted to the mobile station 300.
- PCCH paging 1 message
- DCCH paging 2 message
- the paging 2 message (DCCH) 65 (13 in Fig. 20) has been transmitted from the radio network controller 53 to the mobile station 54.
- a response 66 from the mobile station 54 is returned by a new SCCP connection establishing request 68 for a circuit switched call between the mobile switching station 50 and the radio network controller 53.
- the radio network controller 200 determines that an RRC connection has been established for the mobile station 300 and thus searches for the common ID.
- Fig. 24 shows the configuration of a paging 2' message (core to base) according to the fourth embodiment of the paging 2 message (core to base), which is identical to the message shown in Fig. 12.
- the message is transmitted by connectionless SCCP and a connection ID is added to the information elements.
- Fig. 25 shows an example in which a circuit switched call to a mobile station 74 that is busy in a packet service communication is received.
- a circuit switched call 81 is received at a mobile switching center 70 included in a core network
- a circuit service function unit 72 transmits a query 82 as to "whether or not the destination mobile station is busy in a communication" to a packet service function unit 71.
- the circuit service function unit 72 receives a reply 83 to the effect that "the mobile station 74 is busy in a communication" from the packet service function unit 71 and recognizes that the mobile station 74 has already established an RRC connection.
- the circuit service function unit 72 sets a connection ID indicating an SCCP connection that has been established for a packet call between the mobile switching center 70 and a radio network controller 73 in a paging 2' message (core to base) (Fig. 24), and transmits the paging 2' message (core to base) 84 (Fig. 24) to the radio network controller 73 in a connectionless manner.
- Fig. 26 shows the operation of the radio network controller that has received the paging 2' message (core to base) 84.
- the radio network controller 200 upon receiving the paging 2' message (core to base) 17 (Fig. 24) from the core network 500, the radio network controller 200 identifies the RRC connection for the mobile station 300 from the connection ID in the message (step 24 in Fig. 26), and transmits a paging 2 message (DCCH) 13 of the RRC protocol via a dedicated control channel DCCH.
- the paging 2 message (DCCH) 85 (13 in Fig. 26) has been transmitted from the radio network controller 73 to the mobile station 74.
- the radio network controller 200 determines that an RRC connection has been established for the mobile station 300 similarly to the case of paging 2. Thus, a search for the common ID is not required either in this case. Furthermore, checking of the search-not-required flag is not required either in this case.
- two types of paging message (core to base) are provided so that information recognized by a core network is transmitted to a radio network controller, allowing determination as to whether or not a search for a common ID is required based on the information. Accordingly, the amount of processes for searching for a common ID in a paging procedure at the radio network controller is reduced.
- Fig. 27 is a diagram showing the operations of the paging systems according to the third and the fourth embodiments. Referring to the figure, a search for the common ID is required if the search-not-required flag is "OFF," whereas if the search-not-required flag is "ON" and if the message transmitted from the core network to the radio network controller is paging 1', it is determined that an RRC connection has not been established for the mobile station and thus a search for the common ID is not required.
- a plurality of radio network controllers 200, 201, ... is connected to a mobile switching center 450 included in a core network, and base stations 250 are connected to each of the radio network controllers 200.
- the amount of processes for searching for the common ID of the mobile station 300 in the paging procedure at each of the radio network controllers 200 is reduced, as described above.
- the mobile switching center 450 when a paging request arrives at the mobile switching center 450, if the paging area spans across the radio network controller 200 and the radio network controller 201, the mobile switching center transmits paging messages (core to base) to the radio network controllers 200 and 201, necessitating searching processing at both of the radio network controllers.
- the connection with the mobile station 300 can be identified as residing at the radio network controller 200, and no paging message (core to base) is transmitted to the radio network controller 201. That is, transmission of a useless paging message (core to base) to the radio network controller 201 is prevented. Accordingly, only the radio network controller associated with the connection is required to search for the common ID, and the other radio network controllers are not required to perform useless processes, serving to avoid occurrence of congestion.
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Abstract
Description
- The present invention relates to radio network controllers, and paging systems and paging methods using the same, and particularly relates to a radio network controller that performs a simultaneous call for finding the location of a mobile station from base stations according to the paging procedure of the RANAP (Radio Access Network Application Part) protocol, and a paging system and a paging method using the same.
- Generally, the paging procedure of the RANAP protocol is performed as follows. That is, when a paging command is transmitted from a core network (CN) including a mobile switching center (MSC) to a radio network controller (RNC), the radio network controller, in response to the command, performs a paging processing for simultaneously calling amobile station. In this case, if the range of common ID, that is, the number of mobile stations which the system accommodates, is large, a large amount of processes is incurred at the radio network controller. For this reason, reduction of the amount of processes has been a concern for years.
- Accordingly, a method is considered in which the amount of processes is reduced by improving the process of searching for connections based on the RRC (Radio Resource Control) protocol (hereinafter referred to as "RRC connection"), which is performed based on the common ID at each time of paging. The common ID is identification information for identifying a mobile station.
- An example of the common ID is IMSI (International Mobile Subscriber Identifier). IMSI is four bytes in length and therefore has a maximum value of 232 (approximately 4.3 × 109). Thus, searching IMSI at each time of paging incurs a considerably large load.
- Fig. 1 shows a conventional paging message (paging message from a core network to a radio network controller, hereinafter referred to as "paging message (core to base)"). According to the conventional paging procedure, upon receiving a paging message (core to base), the radio network controller transmits the paging message via a radio paging control channel (PCCH) or a dedicated control channel (DCCH).
- In this case, in order to determine whether to use the radio paging control channel or the dedicated control channel for transmission, the radio network controller searches whether an RRC connection has already been established for a targeted receiving mobile station using a common ID in the message as a key. A paging message (paging message from the radio network controller to the mobile station, hereinafter referred to as "paging message (base to mobile)") is transmitted via the paging control channel if an RRC connection has not been established and via the dedicated control channel if an RRC connection has been established. This is because although the paging message (base to mobile) is transmitted via the radio paging control channel to a mobile station that is not busy in a communication, a mobile station that is busy in a communication does not allow the message to be received via the paging control channel and thus the paging message (base to mobile) must be transmitted via the dedicated control channel using an RRC connection that has already been established.
- Next, the above paging processing will be described with further reference to Figs. 2 and 3.
- Fig. 2 is a diagram showing a paging sequence by which a paging processing is performed to simultaneously call a
mobile station 300 from a core network 100 via aradio network controller 200. Referring to the figure, it is to be assumed that the core network 100 includes a mobile switching center that is not shown, and a connection is set up between the mobile switching center and theradio network controller 200 by the SCCP (Signalling Connection Control Part) protocol. Theradio network controller 200 controls base stations that are not shown, and a connection is set up between the base stations and themobile station 300 based on the RRC protocol. - Referring to the figure, a paging message (core to base) 11 of the RANAP protocol is transmitted from the core network 100 to the
radio network controller 200 by the connectionless SCCP protocol. It is to be assumed that the paging message (core to base) 11 includes a common ID for identifying a mobile station. - The
radio network controller 200 searches whether an RRC connection has already been set up for themobile station 300 designated by a common ID information element in the paging message (core to base) 11. In this case, the search is performed using a table shown in Fig. 3, that is, a table indicative of associations between common IDs and RRC connections (step 21 in Fig. 2). - Referring now to Fig. 3, for example, if the common ID = 0x11110000, "RRC connection is absent" and "search fails" (indicated by a × mark), and a
paging 1 message (base to mobile) 12 of the RRC protocol is transmitted to themobile station 300 via the paging control channel PCCH. Hereinafter, thepaging 1 message (base to mobile) transmitted via the paging control channel PCCH will be referred to as "paging 1 message (PCCH)." If the common ID = 0x11110001, "RRC connection is present" and "search succeeds" (indicated by a circle mark). It is to be assumed that if "search succeeds," information indicating which RRC connection is relevant is written in the table (not shown). Apaging 2 message (base to mobile) 13 is transmitted using a dedicated control channel DCCH identified by the search result. Hereinafter, thepaging 2 message (base to mobile) transmitted via the dedicated control channel DCCH will be referred to as "paging 2 message (DCCH)." - Next, the core network 100 will be described. The
radio network controller 200 can be connected to two types of core network as follows: - (1) Separated Core Network Nodes with packet service function and nodes with circuit service function are physically separated.
- (2) Combined Core Network
Packet service function and circuit service function are combined
within a single node. Furthermore, the combined core networks are
divided into two types as follows depending on the presence/absence of
co-ordination function:
- (2.1) Combined Core Network without Co-ordination Function Packet service function and circuit service function physically reside within a single node. However, the functions operate individually.
- (2.2) Combined Core Network with Co-ordination Function Packet service function and circuit service function are coordinated.
-
- The combined core network with co-ordination function is capable of recognizing whether a mobile station that is targeted by a paging request already has an RRC connection. For example, when a request for receiving a circuit switched call is issued to a mobile station, within the core network, a circuit service function unit is capable of querying a packet service function unit as to whether a packet call is currently established. It is determined that an RRC connection has been established if a packet call has already been established and that an RRC connection has not been established if a packet call has not been established.
- As shown in Fig. 4, SCCP resides in a layer above MTP (Message Transfer Part) and below RANAP. SCCP services are either "connectionless," in which a connection is not set up and a communication is performed on a one-time basis, or "connection oriented," in which a connection is set up in advance and a communication is performed using the connection that has been set up.
- In the paging sequence described above, even if the core network determines "RRC connection is present," no means are provided to transmit it to the radio network controller. Accordingly, the radio network controller performs a search using the common ID unconditionally in response to a paging request. Thus, the paging procedure at the radio network controller suffers from the drawback that a large amount of processes is incurred in order to search for the common ID.
- Prior arts related to the present invention are known. For example, Japanese Unexamined Patent Publication Tokkai No. Hei 1-316050 achieves, by improving an application for a switch, a connection method with immediacy for a connection between a calling subscriber and a receiving subscriber who is called. However, the publication only discloses technical ideas regarding a system for calling a receiving subscriber with a pager, and is completely different from the present invention, which relates to a simultaneous call for finding the location of a mobile station from base stations.
- Also, Japanese Unexamined Patent Publication Tokkai No. Hei 9-168053 discloses a method for communicating maintenance information to a remote apparatus including a remote processor and a pager circuit. However, the publication is also completely different from the present invention, which relates to a simultaneous call for finding the location of a mobile station from base stations.
- The present invention has been made in order to overcome the drawback of the conventional art described above, and an object thereof is to provide a radio network controller that serves to reduce the amount of processes for searching for a common ID in a paging procedure, and a paging system and a paging method using the same.
- A radio network controller according to the present invention is a radio network controller in a paging system that performs a paging processing for simultaneously calling a mobile station in response to a paging command from a core network, wherein a flag indicating whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service is added to said paging command, and said radio network controller comprises determination means for determining whether or not said flag indicates that said co-ordinating function is present; and paging processing means for performing said paging processing using one of a paging control channel and a dedicated control channel depending on the connection status between said core network and said radio network controller if said flag is determined as indicating the presence of said co-ordinating function. In performing said paging processing, said paging control channel is used if the connection status between said core network and said radio network controller is connectionless, and said dedicated control channel is used if the connection status between said core network and said radio network controller is connection oriented. Said paging command may further include a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing is performed using the dedicated control channel by identifying the connection by said connection ID.
- Furthermore, a paging system according to the present invention is a paging system that performs a paging processing for simultaneously calling a mobile station from a radio network controller in response to a paging command from a core network, wherein said radio network controller comprises paging processing means for performing said paging processing using one of a paging control channel and a dedicated control channel depending on whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service. If the mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service, a search for a common ID is not required at said radio network controller. Thus, said radio network controller serves to reduce the amount of processes for searching for a common ID in a paging procedure.
- Furthermore, a paging method according to the present invention is a paging method that performs a paging process ing for simultaneously calling a mobile station from a radio network controller in response to a paging command from a core network, wherein said method comprises a paging processing step of performing, in said radio network controller, said paging processing using one of a paging control channel and a dedicated control channel depending on whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service.
- In sum, the present invention provides means for reducing the amount of processes for searching for a common ID in a paging procedure at a radio network controller. For the purpose of the reduction in the amount of the processesr the present invention provides two types of paging message of the RANAP protocol, as will be described later. By providing the two types of paging message, unnecessary processes for searching for a common ID is saved at the radio network controller.
-
- Fig. 1 is a diagram showing a conventional paging message (core
to base). Fig. 2 is a diagram showing a paging sequence in a
conventional paging system. Fig. 3 is a diagram showing a table
indicative of associations between common IDs and RRC connections.
Fig. 4 is a diagram showing the relationship between SCCP and other
layers. Fig. 5 is a diagram showing the contents of a
paging 1 message (core to base) in a paging system according to a first embodiment of the present invention. Fig. 6 is a diagram showing the contents of apaging 2 message (core to base) in the paging system according to the first embodiment of the present invention. Fig. 7 is a diagram showing apaging 1 sequence in the paging system according to the first embodiment of the present invention. Fig. 8 is a diagram showing a paging sequence from a combined core network. Fig. 9 is a diagram showing apaging 1 sequence in the paging system according to the first embodiment of the present invention. Fig. 10 is a diagram showing a paging sequence from a combined core network. Fig. 11 is a diagram showing apaging 2 sequence in the paging system according to the first embodiment of the present invention. Fig. 12 is a diagram showing a paging 2' sequence (core to base) in a paging system according to a second embodiment of the present invention. Fig. 13 is a diagram showing a paging sequence from a combined core network. Fig. 14 is a diagram showing a paging 2' sequence in the paging system according to the second embodiment of the present invention. Fig. 15 is a diagram showing connections among a mobile switching center included in a core network, radio network controllers, and base stations. Fig. 16 is a diagram showing the contents of a paging 1' message (core to base) in a paging system according to a third embodiment of the present invention. Fig. 17 is a diagram showing the contents of apaging 2 message (core to base) in the paging system according to the third embodiment of the present invention. Fig. 18 is a diagram showing apaging 1 sequence in the paging system according to the third embodiment of the present invention. Fig. 19 is a diagram showing a paging sequence from a combined core network. Fig. 20 is a diagram showing apaging 1 sequence in the paging system according to the third embodiment of the present invention. Fig. 21 is a diagram showing a paging sequence from a combined core network. Fig. 22 is a diagram showing apaging 2 sequence in the paging system according to the third embodiment of the present invention. Fig. 23 is a diagram showing a paging sequence for explaining an embodiment relating to a case where an RRC connection has already been established for a destination mobile station. Fig. 24 is a diagram showing a paging 2' sequence (core to base) in a paging system according to a fourth embodiment of the present invention. Fig. 25 is a diagram showing a paging sequence from a combined core network. Fig. 26 is a diagram showing a paging 2' sequence in the paging system according to the fourth embodiment of the present invention. Fig. 27 is a diagram showing the operations of the paging systems according to the third and the fourth embodiments of the present invention. Fig. 28 is a diagram showing connections among a mobile switching center included in a core network, radio network controllers, and base stations. -
- For more detailed description, the present invention will be described with reference to the accompanying drawings. In the drawings to be referenced in the following description, parts that are equivalent to those in other drawings are designated by the samesymbols.
- In a paging system according to a first embodiment of the present invention, two types of message, namely, paging 1 message (core to base) and
paging 2 message (core to base), are used as paging messages (core to base) of the RANAP protocol. Fig. 5 shows the configuration of apaging 1 message (core to base), and Fig. 6 shows the configuration of apaging 2 message (core to base), respectively. - In the
paging 1 message (core to base) shown in Fig. 5, a "co-ordination function presence/absence flag" is added to the information elements of the paging message shown in Fig. 1. The co-ordination function presence/absence flag indicates whether or not the mobile switching center of the core network has the function of co-ordinating packet service and circuit service. - The
paging 2 message (core to base) shown in Fig. 6 is a new message that is completely different from the paging message (core to base) shown in Fig. 1. Thepaging 2 message (core to base) does not have any information element. - A separated core network and a combined core network without co-ordination function use only the
paging 1 message (core to base) (Fig. 5). A core network with co-ordination function uses both thepaging 1 message (core to base) (Fig. 5) and thepaging 2 message (core to base) (Fig. 6). - More specifically, the
paging 1 message (core to base) (Fig. 5) is used when the first paging (an RRC connection has not been established for the mobile station) is reliably assumed or when a possibility for the first paging exists. On the other hand, thepaging 2 message (core to base) (Fig. 6) is used when the second or a subsequent paging (an RRC connection has been established for the mobile station) is reliably assumed. - First, a paging processing from a
core network 400 without co-ordination function will be described with reference to Fig. 7. In the figure, parts that are equivalent to those in Fig. 2 are designated by the samesymbols. - Fig. 7 shows the operations of the
core network 400, theradio network controller 200, and themobile station 300, and messages exchanged. - The
core network 400 without co-ordination function transmits apaging 1 message (core to base) 14 (Fig. 5) to theradio network controller 200. At this time, the co-ordination function presence/absence flag in thepaging 1 message (core to base) 14 is set to "OFF." - Upon receiving the
paging 1 message (core to base) 14, theradio network controller 200 checks the co-ordination function presence/absence flag in the message (step 22 in Fig. 7). Inasmuch as the co-ordination function presence/absence flag is "OFF," a next common ID is searched for and checked (step 21 in Fig. 7). The subsequent sequence is similar as that in the conventional system. In this case, the presence/absence of an RRC connection is determined based on the table shown in Fig. 3, that is, the table indicative of associations between common IDs and RRC connections, so that apaging 1 message (PCCH) 12 or apaging 2 message (DCCH) 13 of the RRC protocol is transmitted to themobile station 300. - Next, a paging processing from a core network with co-ordination function will be described with reference to Figs. 8 to 11. First, a case where an RRC connection has not been established for a destination mobile station, that is, a case of the first paging message, will be described with reference to Figs. 8 and 9.
- Fig. 8 shows an example in which a circuit switched call to a
mobile station 34 that is not busy in a communication is received. When a circuit switched call is received at amobile switching center 30 included in a core network 500 (Fig. 9), a circuitservice function unit 32 transmits aquery 42 as to "whether or not the destination mobile station is busy in a communication" to a packetservice function unit 31. Then, the circuitservice function unit 32 receives areply 43 to the effect that "themobile station 34 is not busy in a communication" from the packetservice function unit 31 and recognizes the first paging. - The circuit
service function unit 32 prepares apaging 1 message (core to base), sets the co-ordination function presence/absence flag "ON" to indicate that a search has already been performed, and transmits thepaging 1 message (core to base) 44 (Fig. 5) to aradio network controller 33 by connectionless SCCP. Fig. 9 shows the operation of the radio network controller that has received thepaging 1 message (core to base) 44. - Referring to Fig. 9, upon receiving the
paging 1 message (core to base) 15 (Fig. 5) from thecore network 500, theradio network controller 200 checks the value of the co-ordination function presence/absence flag in the message (step 22 in Fig. 9). Inasmuch as the co-ordination function presence/absence flag is "ON," the process of searching for the common ID is skipped, and apaging 1 message (PCCH) 12 of the RRC protocol is transmitted to themobile station 300 via a paging control channel. Referring back to Fig. 8, thepaging 1 message (PCCH) 45 (12 in Fig. 7) has been transmitted from theradio network controller 33 to themobile station 34. - Next, a case where an RRC connection has already been established for a destination mobile station will be described with reference to Figs. 10 and 11.
- Fig. 10 shows an example in which a circuit switched call to a
mobile station 54 that is busy in a packet service communication is received. When a circuit switchedcall 61 is received at amobile switching center 50 included in the core network 500 (Fig. 11), a circuitservice function unit 52 transmits aquery 62 as to "whether or not the destination mobile station is busy in a communication" to a packetservice function unit 51. Then, the circuitservice function unit 52 receives areply 63 to the effect that "themobile station 54 is busy in a communication" and recognizes that themobile station 54 has already established an RRC connection. The circuitservice function unit 52 prepares apaging 2 message (core to base) (Fig. 6), and transmits thepaging 2 message (core to base) 64 (Fig. 6) to aradio network controller 53 in a connection oriented manner with reference to the SCCP connection that has already been established for a packet call between themobile switching center 50 and theradio network controller 53. Fig. 11 shows the operation of the radio network controller that has received thepaging 2 message (core to base) 64. - Referring to Fig. 11, upon receiving the
paging 2 message (core to base) 16 (Fig. 6) from thecore network 500, theradio network controller 200 identifies the RRC connection for themobile station 300 from the SCCP connection between thecore network 500 and the radio network controller 200 (step 23 in Fig. 11). Then, theradio network controller 200 transmits apaging 2 message (DCCH) 13 of the RRC protocol that has been identified for themobile station 300 via a dedicated control channel DCCH. - Referring back to Fig. 10, the
paging 2 message (DCCH) 65 (13 in Fig. 9) has been transmitted from theradio network controller 53 to themobile station 54. A response 66 from themobile station 54 may be returned either using theSCCP connection 67 for a packet call between themobile switching center 50 and theradio network controller 53 or by a new SCCPconnection establishing request 68 for a circuit switched call between themobile switching center 50 and theradio network controller 53. - As described above, two types of paging message (core to base) with respect to the co-ordination function of core networks are newly provided so that means are provided for transmitting information recognized by a core network to a radio network controller, allowing the radio network controller to determine whether or not a search for a common ID is required based on the information. Accordingly, the amount of processes for searching for a common ID in a paging procedure at the radio network controller is reduced.
- Next, a second embodiment of the present invention will be described with reference to Figs. 12 to 14.
- Fig. 12 shows the configuration of a paging 2' message (core to base) according to the second embodiment of the
paging 2 message (core to base). As opposed to the message shown in Fig. 6, the message is transmitted by connectionless SCCP and a connection ID is added to the information elements. - Fig. 13 shows an example in which a circuit switched call to a
mobile station 74 that is busy in a packet service communication is received. When a circuit switchedcall 81 is received at amobile switching center 70 included in a core network, a circuitservice function unit 72 transmits aquery 82 as to "whether or not the destination mobile station is busy in a communication" to a packetservice function unit 71. Then, the circuitservice function unit 72 receives areply 83 to the effect that "themobile station 74 is busy in a communication" from the packetservice function unit 71 and recognizes that themobile station 74 has already established an RRC connection. The circuitservice function unit 72 sets a connection ID indicating an SCCP connection that has been established for a packet call between themobile switching center 70 and aradio network controller 73 in a paging 2' message (core to base) (Fig. 12), and transmits the paging 2' message (core to base) 84 (Fig. 12) in a connectionless manner. - Fig. 14 shows the operation of the radio network controller that has received the paging 2' message (core to base) 84. Referring to Fig. 14, upon receiving the paging 2' message (core to base) 17 (Fig. 12) from the
core network 500, theradio network controller 200 identifies the RRC connection for themobile station 300 from the connection ID in the message (step 24 in Fig. 14), and transmits apaging 2 message (DCCH) 13 of the RRC protocol to themobile station 300 via a dedicated control channel DCCH. Referring back to Fig. 13, thepaging 2 message (DCCH) 85 (13 in Fig. 14) has been transmitted from theradio network controller 73 to themobile station 74. - As described above, also in this embodiment, two types of paging message (core to base) are provided so that information recognized by a core network is transmitted to a radio network controller, allowing the radio network controller to determine whether or not a search for a common ID is required based on the information. Accordingly, the amount of processes for searching for a common ID in a paging procedure at the radio network controller is reduced.
- As shown in Fig. 15, it is assumed that a plurality of
radio network controllers mobile switching center 450 included in a core network and thatbase stations 250 are connected to each of theradio network controllers 200. In this state, by employing this system, the amount of processes for searching for the common ID of themobile station 300 is reduced in the paging procedure at each of theradio network controllers 200, as described above. - Furthermore, referring to the figure, when a paging request arrives at the
mobile switching center 450, if the paging area spans across theradio network controller 200 and theradio network controller 201, themobile switching center 450 transmits paging messages (core to base) to theradio network controller 200 and theradio network controller 201, necessitating searching processing at both of the radio network controllers. However, by employing this system, the connection with themobile station 300 can be identified as residing at theradio network controller 200, and thus no paging message (core to base) is transmitted to theradio network controller 201. That is, transmission of a useless paging message (core to base) to theradio network controller 201 is prevented. Accordingly, only the radio network controller associated with the connection is required to search for the common ID, and the other radio network controllers are not required to execute useless processes, serving to avoid occurrence of congestion. - In a paging system according to a third embodiment of the present invention, two types of messages, namely, paging 1' message (core to base) and
paging 2 message (core to base), are used as paging messages (core to base) of the RANAP protocol. Fig. 16 shows the configuration of the paging 1' message (core to base), and Fig. 17 shows the configuration of thepaging 2 message (core to base), respectively. - In the paging 1' message (core to base) shown in Fig. 16, a "search-not-required flag" is added to the information elements of the paging message shown in Fig. 1. The search-not-required flag is a flag for notifying a radio network controller from a core network of whether or not it is required to search whether or not an RRC connection for a mobile station has been established at the radio network controller.
- The
paging 2 message (core to base) shown in Fig. 17 is the same message as the one shown in Fig. 6, and is a new message that is completely different from the paging message (core to base) shown in Fig. 1. Thepaging 2 message (core to base) does not have any information element. - A separated core network and a combined core network without co-ordination function use only the paging 1' message (core to base) (Fig. 16). A combined core network with co-ordination function uses either both the paging 1' message (core to base) (Fig. 16) and the
paging 2 message (core to base) (Fig. 17) or only the paging 1' message (core to base) (Fig. 16). - More specifically, the paging 1' message (core to base) (Fig. 16) is used when the first paging (an RRC connection has not been established for the mobile station) is reliably assumed or when a possibility of the first paging exists. On the other hand, the
paging 2 message (core to base) (Fig. 17) is used when the second or a subsequent paging (an RRC connection has been established for the mobile station) is reliably assumed. - First, a paging processing from a core network without co-ordination function will be described with reference to Fig. 18. In the figure, parts that are equivalent to those in Fig. 2 are designated by the samesymbols.
- Fig. 18 shows the operations of a
core network 400, aradio network controller 200, amobile station 300, and messages exchanged. - The
core network 400 without co-ordination function transmits a paging 1' message (core to base) 14' (Fig. 16) to theradio network controller 200 in a connectionless manner. At this time, the search-not-required flag in the paging 1' message (core to base) 14' is set to "OFF." - Upon receiving the paging 1' message (core to base) 14', the
radio network controller 200 checks the search-not-required flag in the message (step 22' in Fig. 18). Inasmuch as the search-not-required flag is "OFF," a next common ID is searched for and checked (step 21 in Fig. 18). The subsequent sequence is similar as that in the conventional system. In this case, the presence/absence of an RRC connection is determined based on the table shown in Fig. 3, that is, the table indicative of associations between common IDs and RRC connections, and apaging 1 message (PCCH) 12 or apaging 2 message (DCCH) 13 of the RRC protocol is transmitted to themobile station 300. - Next, a paging processing from a core network with co-ordination function will be described with reference to Figs. 19 to 22. First, a case where an RRC connection has not been established for a destination mobile station, that is, a case of the first paging message, will be described with reference to Figs. 19 and 20.
- Fig. 19 shows an example in which a circuit switched call to a
mobile station 34 that is not busy in a communication is received. When a circuit switched call is received at amobile switching center 30 included in a core network 400 (Fig. 18), a circuitservice function unit 32 transmits aquery 42 as to "whether or not the destination mobile station is busy in a communication" to a packetservice function unit 31. Then, the circuitservice function unit 32 receives areply 43 to the effect that "themobile station 34 is not busy in a communication" from the packetservice function unit 31 and recognizes the first paging. - The circuit
service function unit 32 prepares a paging 1' message (core to base) (Fig. 16), sets the search-not-required flag "ON" to indicate that "a search has already been performed" and that "an RRC connection has not been established for themobile station 34", and transmits the paging 1' message (core to base) 44' (Fig. 16) to theradio network controller 33 by connectionless SCCP. Fig. 20 shows the operation of the radio network controller that has received the paging 1' message (core to base) 44'. - Referring to Fig. 20, upon receiving the paging 1' message (core to base) 15' (Fig. 16) from the
core network 500, theradio network controller 200 checks the value of the search-not-required flag in the message (step 22' in Fig. 20). Inasmuch as the search-not-required flag is "ON," the processing of searching for the common ID is skipped, and apaging 1 message (PCCH) 12 of the RRC protocol is transmitted to themobile station 300 via a paging control channel. Referring back to Fig. 19, thepaging 1 message (PCCH) 45 (12 in Fig. 20) has been transmitted from theradio network controller 33 to themobile station 34. - That is, if the message received from the
core network 500 is a paging 1' message (core to base) (Fig. 16) and if the search-not-required flag is "ON," theradio network controller 200 determines that an RRC connection has not been established for the mobile station 300 (connectionless). Thus, a search for the common ID is not required. - Next, a case where an RRC connection has already been established for a destination mobile station will be described with reference to Figs. 21 and 22.
- Fig. 21 shows an example in which a circuit switched call to a
mobile station 54 that is busy in a packet service communication is received. When a circuit switchedcall 61 is received at amobile switching center 50 included in a core network 500 (Fig. 22), a circuitservice function unit 52 transmits aquery 62 as to "whether or not the destination mobile station is busy in a communication" to a packetservice function unit 51. Then, the circuitservice function unit 52 receives areply 63 to the effect that "themobile station 54 is busy in a communication" and recognizes that themobile station 54 has already established an RRC connection. The circuitservice function unit 52 prepares apaging 2 message (core to base) (Fig. 17), and transmits thepaging 2 message (core to base) 64 (Fig. 17) to aradio network controller 53 in a connection oriented manner with reference to an SCCP connection that has already been already established for a packet call between themobile switching center 50 and theradio network controller 53. Fig. 22 shows the operation of the radio network controller that has received thepaging 2 message (core to base) 64. - Referring to Fig. 22, upon receiving the
paging 2 message (core to base) 16 (Fig. 17) from thecore network 500, theradio network controller 200 identifies which of a plurality of RRC connections is the RRC connection for themobile station 300 based on the SCCP connection between thecore network 500 and the radio network controller 200 (step 23 in Fig. 22). Then, theradio network controller 200 transmits apaging 2 message (DCCH) 13 of the RRC protocol that has been identified to themobile station 300 via a dedicated control channel DCCH. - Referring back to Fig. 21, the
paging 2 message (DCCH) 65 (13 in Fig. 22) has been transmitted from theradio network controller 53 to themobile station 54. A response 66 from themobile station 54 may be returned either using theSCCP connection 67 for a packet call between themobile switching center 50 and theradio network controller 53 or by a new SCCPconnection establishing request 68 for a circuit switched call between themobile switching center 50 and theradio network controller 53. - That is, if the message received from the
core network 500 is apaging 2 message (core to base) (Fig. 17), theradio network controller 200 determines that an RRC connection has been established for the mobile station 300 (connection oriented). Thus, a search for the common ID is not required. Furthermore, in this case, checking of the search-not-required flag is not required either. - As described above, two types of paging message (core to base) with respect to the co-ordination function of core networks are newly provided so that means are provided for transmitting information recognized by a core networks to a radio network controller, allowing the radio network controller to determine whether or not a search for a common ID is required based on the information. Accordingly, the amount of processes for searching for a common ID in a paging procedure at the radio network controller is reduced.
- Next, another embodiment of a case where an RRC connection has already been established for a destination mobile station will be described with reference to Figs. 20 and 23. As opposed to the example described above, even if the core network has co-ordination function and if an RRC connection has already been established for a destination mobile station, the
paging 2 message (core to base) (Fig. 17) is not used, and the search-not-required flag in the paging 1' message (core to base) (Fig. 16) is set to "OFF," so that the radio network controller searches for the common ID. - Fig. 23 shows an example in which a circuit switched call to a
mobile station 54 that is busy in a packet service communication is received. When a circuit switchedcall 61 is received at amobile switching center 50 included in acore network 400, a circuitservice function unit 52 transmits aquery 62 as to "whether or not the destination mobile station is busy in a communication" to a packetservice function unit 51. Then, the circuitservice function unit 52 receives areply 63 to the effect that "themobile station 54 is busy in a communication" and recognizes that themobile station 54 has already established an RRC connection. At this time, the circuitservice function unit 52 sets the search-not-required flag in the paging 1' message (core to base) 15' (Figs. 20 and 16) to "OFF." - Upon receiving the paging 1' message (core to base) 15'(Fig. 16), the
radio network controller 200 checks the search-not-required flag in the message (step 22' in Fig. 20). Inasmuch as the search-not-required flag is "OFF," a next common ID is searched and checked (step 21 in Fig. 20). The subsequent sequence is similar as that in the conventional system. In this case, whether the presence/absence of an RRC connection is determined based on the table shown in Fig. 3, that is, the table indicative of associations between common IDs and RRC connections, and apaging 1 message (PCCH) 12 or apaging 2 message (DCCH) 13 of the RRC protocol is transmitted to themobile station 300. In this case, inasmuch as an RRC connection has already been set up for the mobile station, thepaging 2 message (DCCH) 13 is transmitted to themobile station 300. - Referring back to Fig. 23, the
paging 2 message (DCCH) 65 (13 in Fig. 20) has been transmitted from theradio network controller 53 to themobile station 54. A response 66 from themobile station 54 is returned by a new SCCPconnection establishing request 68 for a circuit switched call between the mobile switchingstation 50 and theradio network controller 53. - That is, if the search-not-required flag in the paging 1' message (core to base) (Fig. 16) is "OFF," even if the message received from the
core network 500 is a paging 1' message (core to base) (Fig. 16), theradio network controller 200 determines that an RRC connection has been established for themobile station 300 and thus searches for the common ID. - Next, a fourth embodiment of the present invention will be described with reference to Figs. 24 to 26.
- Fig. 24 shows the configuration of a paging 2' message (core to base) according to the fourth embodiment of the
paging 2 message (core to base), which is identical to the message shown in Fig. 12. As opposed to the message described earlier and shown in Fig. 17, the message is transmitted by connectionless SCCP and a connection ID is added to the information elements. - Fig. 25 shows an example in which a circuit switched call to a
mobile station 74 that is busy in a packet service communication is received. When a circuit switchedcall 81 is received at amobile switching center 70 included in a core network, a circuitservice function unit 72 transmits aquery 82 as to "whether or not the destination mobile station is busy in a communication" to a packetservice function unit 71. Then, the circuitservice function unit 72 receives areply 83 to the effect that "themobile station 74 is busy in a communication" from the packetservice function unit 71 and recognizes that themobile station 74 has already established an RRC connection. The circuitservice function unit 72 sets a connection ID indicating an SCCP connection that has been established for a packet call between themobile switching center 70 and aradio network controller 73 in a paging 2' message (core to base) (Fig. 24), and transmits the paging 2' message (core to base) 84 (Fig. 24) to theradio network controller 73 in a connectionless manner. - Fig. 26 shows the operation of the radio network controller that has received the paging 2' message (core to base) 84. Referring to Fig. 26, upon receiving the paging 2' message (core to base) 17 (Fig. 24) from the
core network 500, theradio network controller 200 identifies the RRC connection for themobile station 300 from the connection ID in the message (step 24 in Fig. 26), and transmits apaging 2 message (DCCH) 13 of the RRC protocol via a dedicated control channel DCCH. Referring back to Fig. 25, thepaging 2 message (DCCH) 85 (13 in Fig. 26) has been transmitted from theradio network controller 73 to themobile station 74. - That is, if the message received from the
core network 500 is a paging 2' message (core to base) (Fig. 24), theradio network controller 200 determines that an RRC connection has been established for themobile station 300 similarly to the case ofpaging 2. Thus, a search for the common ID is not required either in this case. Furthermore, checking of the search-not-required flag is not required either in this case. - As described above, also in this embodiment, two types of paging message (core to base) are provided so that information recognized by a core network is transmitted to a radio network controller, allowing determination as to whether or not a search for a common ID is required based on the information. Accordingly, the amount of processes for searching for a common ID in a paging procedure at the radio network controller is reduced.
- The operations described above are summarized in Fig. 27. Fig. 27 is a diagram showing the operations of the paging systems according to the third and the fourth embodiments. Referring to the figure, a search for the common ID is required if the search-not-required flag is "OFF," whereas if the search-not-required flag is "ON" and if the message transmitted from the core network to the radio network controller is paging 1', it is determined that an RRC connection has not been established for the mobile station and thus a search for the common ID is not required.
- In the case of
paging 2, it is determined that an RRC connection has been established for the mobile station and thus a search for the common ID is not required either in this case. - Furthermore, in the case of paging 2', similarly to the case of
paging 2, it is determined that an RRC connection has been established for the mobile station and thus a search for the common ID is not required. - It is assumed that, as shown in Fig. 28, a plurality of
radio network controllers mobile switching center 450 included in a core network, andbase stations 250 are connected to each of theradio network controllers 200. In this state, by employing this system, the amount of processes for searching for the common ID of themobile station 300 in the paging procedure at each of theradio network controllers 200 is reduced, as described above. - Furthermore, referring to the figure, when a paging request arrives at the
mobile switching center 450, if the paging area spans across theradio network controller 200 and theradio network controller 201, the mobile switching center transmits paging messages (core to base) to theradio network controllers mobile station 300 can be identified as residing at theradio network controller 200, and no paging message (core to base) is transmitted to theradio network controller 201. That is, transmission of a useless paging message (core to base) to theradio network controller 201 is prevented. Accordingly, only the radio network controller associated with the connection is required to search for the common ID, and the other radio network controllers are not required to perform useless processes, serving to avoid occurrence of congestion.
Claims (70)
- A radio network controller (200) in a paging system that performs a paging processing for simultaneously calling a mobile station (300) in response to a paging command (14, 15, 16, or 17) from a core network (400 or 500),
wherein a flag indicating whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service is added to said paging command,
and said radio network controller comprises:determination means (22) for determining whether or not said flag indicates that said co-ordinating function is present; andpaging processing means (12 and 13) for performing said paging processing using one of a paging control channel (PCCH) and a dedicated control channel (DCCH) depending on the connection status between said core network and said radio network controller if said flag is determined as indicating the presence of said co-ordinating function. - A radio network controller according to Claim 1,
wherein said paging processing means comprises:means (12) for performing said paging processing using said paging control channel (PCCH) if the connection status between said core network and said radio network controller is connectionless; andmeans (13) for performing said paging processing using said dedicated control channel (DCCH) if the connection status between said core network and said radio network controller is connection oriented. - A radio network controller according to Claim 1, wherein said paging command is a paging message of the RANAP protocol.
- A radio network controller according to Claim 1, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing means identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A radio network controller according to Claim 2, wherein said paging command is a paging message of the RANAP protocol.
- A radio network controller according to Claim 2, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing means identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A radio network controller according to Claim 3, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing means identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A radio network controller according to Claim 5, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing means identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A paging system that performs a paging processing for simultaneously calling a mobile station (300) from a radio network controller (200) in response to a paging command (14, 15, 16, or 17) from a core network (400 or 500),
wherein a flag indicating whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service is added to said paging command,
and said radio network controller comprises:determination means (22) for determining whether or not said flag indicates that said co-ordinating function is present; andpaging processing means (12 and 13) for performing said paging processing using one of a paging control channel (PCCH) and a dedicated control channel (DCCH) depending on the connection status between said core network and said radio network controller if said flag is determined as indicating the presence of said co-ordinating function. - A paging system according to Claim 9,
wherein said paging processing means comprises:means (12) for performing said paging processing using said paging control channel (PCCH) if the connection status between said core network and said radio network controller is connectionless; andmeans (13) for performing said paging processing using said dedicated control channel (DCCH) if the connection status between said core network and said radio network controller is connection oriented. - A paging system according to Claim 9, wherein said paging command is a paging message of the RANAP protocol.
- A paging system according to Claim 9, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing means identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A paging system according to Claim 10, wherein said paging command is a paging message of the RANAP protocol.
- A paging system according to Claim 10, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing means identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A paging system according to Claim 11, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing means identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A paging system according to Claim 13, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing means identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A paging method that performs a paging processing for simultaneously calling a mobile station (300) from a radio network controller (200) in response to a paging command (14, 15, 16, or 17) from a core network (400 or 500),
wherein a flag indicating whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service is added to said paging command,
and said paging method comprises:a determination step (22) of determining at said radio network controller whether or not said flag indicates that said co-ordinating function is present; anda paging processing step (12 and 13) of performing said paging process at said radio network controller using one of a paging control channel (PCCH) and a dedicated control channel (DCCH) depending on the connection status between said core network and said radio network controller if said flag is determined as indicating the presence of said co-ordinating function. - A paging method according to Claim 17,
wherein said paging processing step comprises:a step (12) of performing said paging processing using said paging control channel (PCCH) if the connection status between said core network and said radio network controller is connectionless; anda step (13) of performing said paging processing using said dedicated control channel (DCCH) if the connection status between said core network and said radio network controller is connection oriented. - A paging method according to Claim 17, wherein said paging command is a paging message of the RANAP protocol.
- A paging method according to Claim 17, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that the step of performing said paging processing identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A paging method according to Claim 18, wherein said paging command is a paging message of the RANAP protocol.
- A paging method according to Claim 18, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that the step of performing said paging processing identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A paging method according to Claim 19, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that the step of performing said paging processing identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A paging method according to Claim 21, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that the step of performing said paging processing identifies the connection by said connection ID (24) and performs said paging processing using the dedicated control channel (DCCH) (13).
- A paging system that performs a paging processing for simultaneously calling a mobile station (300) from a radio network controller (200) in response to a paging command (14', 15', 16, or 17) from a core network (400 or 500),
wherein said radio network controller comprises paging processing means (22', 21, 12, and 13) for performing said paging processing using one of a paging control channel (PCCH) and a dedicated control channel (DCCH) depending on whether or not a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service. - A paging system according to Claim 25, wherein said paging processing means searches for said common ID (21) if the mobile switching center of said core network does not have the function of co-ordinating the packet service and the circuit service.
- A paging system according to Claim 25, wherein said paging processing means performs said paging processing using one of the paging control channel and the dedicated control channel depending on the connection status between said core network and said radio network controller if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service.
- A paging system according to Claim 25, wherein said paging command (14' or 15') includes a search-not-required flag indicating whether a search for said common ID is required or not required.
- A paging system according to Claim 26, wherein said paging command (14' or 15') includes a search-not-required flag indicating whether a search for said common ID is required or not required.
- A paging system according to Claim 27, wherein said paging command (14' or 15') includes a search-not-required flag indicating whether a search for said common ID is required or not required.
- A paging system according to Claim 28, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network does not have the function of co-ordinating a packet service and a circuit service.
- A paging system according to Claim 29, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network does not have the function of co-ordinating the packet service and the circuit service.
- A paging system according to Claim 30, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network does not have the function of co-ordinating the packet service and the circuit service.
- A paging system according to Claim 28, wherein said search-not-required flag is set to "not required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging system according to Claim 29, wherein said search-not-required flag is set to "not required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging system according to Claim 30, wherein said search-not-required flag is set to "not required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging system according to Claim 34, wherein said paging control channel (PCCH) is used in said paging processing if said search-not-required flag indicates not required.
- A paging system according to Claim 35, wherein said paging control channel (PCCH) is used in said paging processing if said search-not-required flag indicates not required.
- A paging system according to Claim 36, wherein said paging control channel (PCCH) is used in said paging processing if said search-not-required flag indicates not required.
- A paging system according to Claim 28, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging system according to Claim 29, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging system according to Claim 30, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging system according to Claim 40, wherein one of said paging control channel (PCCH) and said dedicated control channel (DCCH) is used in said paging processing if said search-not-required flag indicates required.
- A paging system according to Claim 41, wherein one of said paging control channel (PCCH) and said dedicated control channel (DCCH) is used in said paging processing if said search-not-required flag indicates required.
- A paging system according to Claim 42, wherein one of said paging control channel (PCCH) and said dedicated control channel (DCCH) is used in said paging processing if said search-not-required flag indicates required.
- A paging system according to Claim 27, wherein said dedicated control channel (DCCH) is used in said paging processing if the connection status between said core network and said radio network controller is connection oriented.
- A paging system according to Claim 27, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing means identifies the connection by said connection ID (24) and performs said paging processing using said dedicated control channel (DCCH) (13).
- A paging method that performs a paging processing for simultaneously calling a mobile station (300) from a radio network controller (200) in response to a paging command (14', 15', 16, or 17) from a core network (400 or 500),
wherein said paging method comprises a paging processing step (22', 21, 12, and 13) of performing, in said radio network controller, said paging processing using one of a paging control channel (PCCH) and a dedicated control channel (DCCH) depending on whether a mobile switching center of said core network has the function of co-ordinating a packet service and a circuit service. - A paging method according to Claim 48, wherein said paging processing step searches for said common ID (21) if the mobile switching center of said core network does not have the function of co-ordinating the packet service and the circuit service.
- A paging method according to Claim 48, wherein said paging processing step performs said paging processing using one of the paging control channel and the dedicated control channel (12 and 13) depending on the connection status between said core network and said radio network controller if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service.
- A paging method according to Claim 48, wherein said paging command (14' or 15') includes a search-not-required flag indicating whether a search for said common ID is required or not required.
- A paging method according to Claim 49, wherein said paging command (14' or 15') includes a search-not-required flag indicating whether a search for said common ID is required or not required.
- A paging method according to Claim 50, wherein said paging command (14' or 15') includes a search-not-required flag indicating whether a search for said common ID is required or not required.
- A paging method according to Claim 51, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network does not have the function of co-ordinating the packet service and the circuit service.
- A paging method according to Claim 52, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network does not have the function of co-ordinating the packet service and the circuit service.
- A paging method according to Claim 53, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network does not have the function of co-ordinating the packet service and the circuit service.
- A paging method according to Claim 51, wherein said search-not-required flag is set to "not required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging method according to Claim 52, wherein said search-not-required flag is set to "not required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging method according to Claim 53, wherein said search-not-required flag is set to "not required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging method according to Claim 57, wherein said paging control channel (PCCH) is used in said paging processing if said search-not-required flag indicates not required.
- A paging method according to Claim 58, wherein said paging control channel (PCCH) is used in said paging processing if said search-not-required flag indicates not required.
- A paging method according to Claim 59, wherein said paging control channel (PCCH) is used in said paging processing if said search-not-required flag indicates not required.
- A paging method according to Claim 51, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging method according to Claim 52, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging method according to Claim 53, wherein said search-not-required flag is set to "required" if the mobile switching center of said core network has the function of co-ordinating the packet service and the circuit service and if the connection status between said core network and said radio network controller is connectionless.
- A paging method according to Claim 63, wherein one of said paging control channel (PCCH) and said dedicated control channel (DCCH) is used in said paging processing if said search-not-required flag indicates required.
- A paging method according to Claim 64, wherein one of said paging control channel (PCCH) and said. dedicated control channel (DCCH) is used in said paging processing if said search-not-required flag indicates required.
- A paging method according to Claim 65, wherein one of said paging control channel (PCCH) and said dedicated control channel (DCCH) is used in said paging processing if said search-not-required flag indicates required.
- A paging method according to Claim 50, wherein said dedicated control channel (DCCH) is used in said paging processing if the connection status between said core network and said radio network controller is connection oriented.
- A paging method according to Claim 50, wherein said paging command (17) further includes a connection ID for identifying a connection between said radio network controller and a mobile station that is in a communication, so that said paging processing step identifies the connection by said connection ID (24) and performs said paging processing using said dedicated control channel (DCCH) (13).
Priority Applications (1)
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EP10181827.6A EP2291041B1 (en) | 1999-09-08 | 2000-09-08 | Paging system |
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JP2000146713A JP3419386B2 (en) | 1999-09-08 | 2000-05-18 | Paging system and paging method |
PCT/JP2000/006149 WO2001019115A1 (en) | 1999-09-08 | 2000-09-08 | Paging system |
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EP10181827.6A Division EP2291041B1 (en) | 1999-09-08 | 2000-09-08 | Paging system |
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EP1211909A4 EP1211909A4 (en) | 2007-08-15 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1372349A1 (en) * | 2002-06-11 | 2003-12-17 | Alcatel | Radio access network architecture and paging method |
WO2007148932A1 (en) * | 2006-06-21 | 2007-12-27 | Electronics And Telecommunications Research Institute | Method for paging terminal of rrc connected state in lte system |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3419386B2 (en) | 1999-09-08 | 2003-06-23 | 日本電気株式会社 | Paging system and paging method |
US20060073841A1 (en) * | 2004-10-01 | 2006-04-06 | Murali Narasimha | Method and communication system for establishing a voice call connection |
US8515436B2 (en) * | 2008-03-27 | 2013-08-20 | Qualcomm Incorporated | Management of wireless connections |
US9839001B2 (en) * | 2009-03-23 | 2017-12-05 | Apple Inc. | Methods and apparatus for optimizing paging mechanisms and publication of dynamic paging mechanisms |
CN104219656B (en) * | 2010-08-26 | 2017-10-17 | 华为技术有限公司 | The service control method and relevant apparatus and system of machine type communication equipment |
CN102387563B (en) | 2010-08-26 | 2015-05-27 | 华为技术有限公司 | Service control method of machine type communication equipment, and related device and system |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO1999017579A2 (en) * | 1997-09-30 | 1999-04-08 | Nokia Networks Oy | Paging of mobile subscriber to establish packet-switched connection |
Family Cites Families (18)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH01316050A (en) | 1988-06-16 | 1989-12-20 | Nec Corp | Paging connection system |
JP2878396B2 (en) | 1990-06-08 | 1999-04-05 | 日本電信電話株式会社 | Circuit switching incoming call control method during communication |
KR0123398B1 (en) * | 1994-11-30 | 1997-11-19 | 양승택 | Control method of hard-hand off in cdma msc |
US5884144A (en) | 1995-09-27 | 1999-03-16 | Lucent Technologies Inc. | Maintenance and administration of remote systems via radio pager |
US6230009B1 (en) | 1996-12-27 | 2001-05-08 | At&T Wireless Services, Inc. | Method and apparatus for alerting a station in one network of a requested communication from a second network |
US5999521A (en) | 1997-06-06 | 1999-12-07 | Lucent Technologies Inc. | System and method for providing local services to a wireless telephone served by another system |
US6188911B1 (en) | 1997-09-09 | 2001-02-13 | Telefonaktiebolaget Lm Ericsson (Publ) | Efficient message transmission in a mobile communication system |
US6608832B2 (en) * | 1997-09-25 | 2003-08-19 | Telefonaktiebolaget Lm Ericsson | Common access between a mobile communications network and an external network with selectable packet-switched and circuit-switched and circuit-switched services |
US6259925B1 (en) * | 1997-11-19 | 2001-07-10 | Telefonaktiebolaget Lm Ericsson (Publ) | Retention of radio resource connection for short message service message delivery in a cellular telephone network |
JP3540588B2 (en) | 1998-01-07 | 2004-07-07 | 株式会社エヌ・ティ・ティ・ドコモ | Mobile packet communication network, mobile communication terminal, and packet switching method |
FI106172B (en) * | 1998-01-29 | 2000-11-30 | Nokia Networks Oy | A method for reconfiguring a connection in a cellular radio network |
US6292667B1 (en) * | 1998-05-05 | 2001-09-18 | Telefonaktiebolaget Lm Ericsson (Publ) | Multicell area paging for cellular telecommunications system |
CA2343026C (en) | 1998-10-06 | 2007-01-09 | Nokia Networks Oy | Paging control method and apparatus |
US6549897B1 (en) | 1998-10-09 | 2003-04-15 | Microsoft Corporation | Method and system for calculating phrase-document importance |
US7072656B2 (en) * | 1999-03-16 | 2006-07-04 | Telefonaktiebolaget Lm Ericsson (Publ) | Handover in a shared radio access network environment using subscriber-dependent neighbor cell lists |
JP3419386B2 (en) | 1999-09-08 | 2003-06-23 | 日本電気株式会社 | Paging system and paging method |
GB9921706D0 (en) | 1999-09-14 | 1999-11-17 | Nokia Telecommunications Oy | Relocation in a communication system |
US20040083876A1 (en) * | 2002-11-06 | 2004-05-06 | Maegli Jack William | Multiple diameter tube wind chime or tubular bell comprised of tubes singularly air resonant tuned for maximum expression of primary frequency |
-
2000
- 2000-05-18 JP JP2000146713A patent/JP3419386B2/en not_active Expired - Lifetime
- 2000-09-08 EP EP00957051A patent/EP1211909A4/en not_active Withdrawn
- 2000-09-08 KR KR10-2002-7003044A patent/KR100448614B1/en active IP Right Grant
- 2000-09-08 US US10/069,957 patent/US7450956B1/en not_active Expired - Lifetime
- 2000-09-08 WO PCT/JP2000/006149 patent/WO2001019115A1/en active IP Right Grant
- 2000-09-08 AU AU68761/00A patent/AU6876100A/en not_active Abandoned
- 2000-09-08 CN CN200510118542XA patent/CN1764318B/en not_active Expired - Lifetime
- 2000-09-08 BR BR0014256-5A patent/BR0014256A/en not_active Application Discontinuation
- 2000-09-08 CN CNB008153833A patent/CN1254145C/en not_active Expired - Lifetime
- 2000-09-08 EP EP10181827.6A patent/EP2291041B1/en not_active Expired - Lifetime
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Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO1999017579A2 (en) * | 1997-09-30 | 1999-04-08 | Nokia Networks Oy | Paging of mobile subscriber to establish packet-switched connection |
Non-Patent Citations (2)
Title |
---|
"3rd Generation Partnership Project (3GPP); Technical Specification Group (TSG) RAN UTRAN Iu Interface RANAP Signalling [UMTS 25.413]", 3GPP STANDARD; 3G TS 25.413, 3RD GENERATION PARTNERSHIP PROJECT (3GPP), MOBILE COMPETENCE CENTRE ; 650, ROUTE DES LUCIOLES ; F-06921 SOPHIA-ANTIPOLIS CEDEX ; FRANCE, no. V1.0.2, 1 June 1999 (1999-06-01), pages 1-47, XP050368224, * |
See also references of WO0119115A1 * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1372349A1 (en) * | 2002-06-11 | 2003-12-17 | Alcatel | Radio access network architecture and paging method |
WO2007148932A1 (en) * | 2006-06-21 | 2007-12-27 | Electronics And Telecommunications Research Institute | Method for paging terminal of rrc connected state in lte system |
Also Published As
Publication number | Publication date |
---|---|
WO2001019115A1 (en) | 2001-03-15 |
KR100448614B1 (en) | 2004-09-13 |
EP1211909A4 (en) | 2007-08-15 |
US8792918B2 (en) | 2014-07-29 |
US7450956B1 (en) | 2008-11-11 |
CN1387736A (en) | 2002-12-25 |
BR0014256A (en) | 2005-12-06 |
JP2001148878A (en) | 2001-05-29 |
EP2291041A3 (en) | 2011-04-06 |
HK1086150A1 (en) | 2006-09-08 |
JP3419386B2 (en) | 2003-06-23 |
AU6876100A (en) | 2001-04-10 |
CN1764318B (en) | 2010-11-10 |
CN1764318A (en) | 2006-04-26 |
CN1254145C (en) | 2006-04-26 |
EP2291041B1 (en) | 2016-08-24 |
EP2291041A2 (en) | 2011-03-02 |
KR20020032573A (en) | 2002-05-03 |
US20070082685A1 (en) | 2007-04-12 |
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